It depends on the density of the material being sampled.
1.014 g/ml
The density of the sample can be calculated by dividing the mass of the sample (35.4g) by its volume (36.82 mL). Density = Mass/Volume Density = 35.4g / 36.82 mL Density = 0.962 g/mL
The density of the sample is about 2.14 g/mL
The mass of the substance is 20 grams in a 10 ml sample. Therefore, the substance has a density of 2 grams/ml. For a 200 ml sample of the same substance, the mass would be 400 grams (200 ml x 2 grams/ml).
The density of the sample is calculated by dividing the mass (2.50 g) by the volume (1.7 mL). Density = mass/volume = 2.50 g / 1.7 mL = 1.47 g/mL.
The density of the sample is calculated by dividing its mass by its volume. In this case, the mass is 1.25 g and the volume is 51 mL. Therefore, the density of the sample is 1.25 g/51 mL = 0.0245 g/mL.
The mass of 1 mL of water is 1 g.
The estimated mass of 300 ml is about 300 grams. This can change based on the temperature and the density of the sample.
To calculate the mass of a 600 ml sample of seawater, you need to know the density. If the density of seawater is approximately 1.025 g/ml, the mass can be calculated using the formula: mass = density × volume. Therefore, the mass of the seawater would be approximately 600 ml × 1.025 g/ml = 615 grams.
The volume of the sample whose mass is 20 g and density is 4 g/ml is 5 milliliters.
5
The density of the liquid sample is 0.75 g/mL. Density is calculated by dividing the mass of the liquid sample by its volume: density = mass/volume. Given that the mass is 450 g and the volume is 600 mL, the density is 450 g / 600 mL = 0.75 g/mL.